- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
基本説明
液体および蒸気の熱容量の理論、実験法および技術を詳述する資料。
Full Description
The book contains the very latest information on all aspects of heat capacities related to liquids and vapours. The chapters, all written by knowledgeable experts in their respective fields, cover theory, experimental methods, and techniques (including speed of sound, photothermal techniques, brillouin scattering, scanning transitiometry, high resolution adiabatic scanning calorimetry), results on solutions, liquids, vapours, mixtures, electrolytes, critical regions, proteins, liquid crystals, polymers, reactions, effects of high pressure and phase changes. This new book covers a wide range of topics and is a key point of reference for undergraduates and graduates alike as well as researchers, academics and anyone working in the field or related areas.
Contents
Chapter 1: Heat Capacities: Introduction, Concepts and Selected Applications;
Chapter 2: Calorimetric Methods for Measuring Heat Capacities of Liquids and Liquid Solutions;
Chapter 3: An Exact Analysis of Conductive Heat Losses in a Flow Calorimeter for Heat capacity Measurement;
Chapter 4: Excess Heat Capacities and Related Properties of Liquid mixtures;
Chapter 5: Heat Capacity of Non-Electrolyte Solutions;
Chapter 6: Heat Capacities and Related Properties of Vapours and Vapour Mixtures;
Chapter 7: Heat Capacity of Electrolyte Solutions;
Chapter 8: Scanning Transitiometry and its Use to Determine Heat Capacities of Liquids at High Pressures;
Chapter 9: Chapter 9 Sound Speed Measurements and Heat Capacities of gases;
Chapter 10: Speed of Sound Measurements and Heat Capacities of Liquid Systems at High Pressure;
Chapter 11: Heat Capacities and Brillouin Scattering in Liquids;
Chapter 12: Photothermal Techniques for Heat Capacities;
Chapter 13: High Resolution Adiabatic Scanning Calorimetry and Heat Capacities;
Chapter 14: Heat Capacities in the Critical Region;
Chapter 15: Heat Capacity of Polymeric Systems;
Chapter 16: Protein Heat Capacity;
Chapter 17: Specific Heat in Liquid Crystals;
Chapter 18: Heat Capacities and Phase Transitions for the Dynamic Chemical Systems: Conformers, Tautomers, Plastic Crystals and Ionic Liquids;
Chapter 19: The Estimation of Heat Capacities of Pure Liquids;
Chapter 20: Computer Simulation Studies of Heat Capacity Effects Associated with Hydrophobic Effects;
Chapter 21: Partial Molar Heat Capacities of Gases Dissolved in Liquid;
Chapter 22: Heat Capacities of Molten Salts